Journal of the Korean Institute of Gas (한국가스학회지)

The Korean Institute of GAS (한국가스학회)
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A Study on Liquified Petroleum Gas(LPG) Fuel Quantitative Method using Coriolis Mass Flowmeter

코리올리 질량유량계를 이용한 액화석유가스(LPG) 정량 측정 방법 연구

  • Park, Tae-Seong (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority) ;
  • Seong, Sang-Rae (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority) ;
  • Yim, Eui-Soon (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority) ;
  • Lee, Joung-Min (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority) ;
  • Lee, Myung-Sig (Hizen Inc.) ;
  • Kang, Hyung-Kyu (Research Institute of Petroleum Technology, Korea Petroleum Quality & Distribution Authority)
  • 박태성 (한국석유관리원 석유기술연구소) ;
  • 성상래 (한국석유관리원 석유기술연구소) ;
  • 임의순 (한국석유관리원 석유기술연구소) ;
  • 이정민 (한국석유관리원 석유기술연구소) ;
  • 이명식 (주식회사 하이젠) ;
  • 강형규 (한국석유관리원 석유기술연구소)
  • Received : 2018.09.19
  • Accepted : 2018.12.20
  • Published : 2018.12.31
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Abstract

Domestic LPG meters are being tested for LPG quantification in accordance with the "Measures Act". The LPG meter is re-tested every three years in accordance with the "Enforcement Decree of the Measures Act". The maximum permissible error within the test is within ${\pm}1.0%$, and the tolerance is within ${\pm}1.5%$. For the quantitative measurement of LPG, a hydrometer for LPG, a balance, and a pressure vessel are used. The volume of LPG varies in depending on the temperature and pressure. The current quantitative measurement method of LPG requires the measurement of temperature, pressure and density in order to determine the volume of LPG, respectively, and some equipments are needed accordingly. Coriolis mass flowmeter, on the other hand, measure the mass flow, density and temperature at the same time, and can be converted and calculated to the required values using a computer program, also it is widely applied in the industrial field. In this study, the volume of LPG was measured using a Coriolis mass flowmeter as a basic study of LPG quantitative measurement. In addition, it is shown that it is possible to apply for the LPG quantitative measurement using the Coriolis mass flowmeter by comparing it with the conventional LPG quantitative measurement method.

국내 LPG 미터는 "계량에 관한 법률"에 의거 LPG 정량에 대한 검사가 실시되고 있다. LPG 미터는 "계량에 관한 법률 시행령"에 따라 3년마다 재검정이 실시된다. 검사 시 최대허용오차는 ${\pm}1.0%$ 이내, 사용오차는 ${\pm}1.5%$ 이내이다. 정량 측정 시에는 밀도부액계, 저울, 압력용기를 사용한다. LPG는 온도와 압력에 따라 부피 변화의 정도가 매우 심하다. 현행 정량 측정 방법은 LPG의 부피를 구하기 위해 온도 및 압력, 밀도를 측정해야 하며, 이에 따른 장비들이 필요하다. 반면에 코리올리 질량유량계는 질량유량, 밀도, 온도를 동시에 측정하며, 컴퓨터 프로그램을 사용하여 측정값을 필요한 값으로 변환 및 산출 할 수 있어, 산업현장에서 널리 적용되고 있다. 본 연구에서는 LPG 정량 측정에 대한 기초연구로서, 코리올리 질량유량계를 이용하여 LPG 충전기에서 나온 LPG 부피를 측정했다. 또한, 기존 LPG 충전기 검사방법과의 비교를 통해 코리올리 질량유량계를 이용한 LPG 충전기 검사도 가능하다는 결론을 얻었다.

Keywords

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Fig. 1. Examples of LPG quantitative measuring equipment in Australia(A) and Turkey(B).

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Fig. 2. Examples of LPG quantitative measuring vehicle in Australia(A) and Turkey(B).

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Fig. 3. Example of LPG meter with recovery line.

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Fig. 4. Principle of Coriolis mass flowmeter.

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Fig. 5. LPG hydrometer(A) and cylinder(B).

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Fig. 6. Electric balance(A) and pressure vessel(B).

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Fig. 7. Equipment(A) and program(B) for measuring amount of LPG in Hizen Inc..

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Fig. 8. LPG mass equipment of Endress+Hauser.

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Fig. 9. Procedure of current method for measuring LPG

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Fig. 10. Procedure of new method for measuring LPG

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Fig. 11. Comparison of the measurement error between two methods.

Table 1. Examples of general Coriolis mass flowmeter applications

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Table 2. Specifications of LPG mass

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Table 3. Results of density(15 ℃) using the new and current method

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Table 4. Result of LPG weight using the new and current method

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Table 5. Result of volume(20 L) using the new and current method

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Table 6. The coincidence rate between two methods

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Table 7. The volume of measurement and standard deviation of the measurement error using new method

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Table 8. The volume of measurement and standard deviation of the measurement error using current method

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References

  1. Ministry of Trade, Industry and Energy., "SAFETY CONTROL AND BUSINESS OF LIQUEFIED PETROLEUM GAS ACT", Act No. 14995, (2017)
  2. Ministry of Trade, Industry and Energy., "MEASURES ACT", Act No. 15174, (2017)
  3. Ministry of Trade, Industry and Energy., "ENFORCEMENT DECREE OF THE MEASURES ACT", Amended by Presidential Decree No. 28417, (2017)
  4. Korea Association of Standards and Testing Organizations., "Measure and inspection handbook", (2017)
  5. Lim, K. W., Lee, W. K., "An Experimental Study on the Influential Factors of Flow Measurement with Coriolis Mass Flowmeter", KSME, 27(12), 1699-1707, (2003) https://doi.org/10.3795/KSME-B.2003.27.12.1699
  6. Martin Anklin., Wolfgang Drahm., and Alfred Rieder., "Coriolis mass flowmeters: Overview of the current state of the art and latest research", Flow Measurement and Instrumentation, 17, 317-323, (2006) https://doi.org/10.1016/j.flowmeasinst.2006.07.004
  7. Department of Industry, Innovation and Science in Australia., Innovation and Science in Australia, "National Instrument Test Procedure for LPG Dispensers", (2015)
  8. Department of Industry, Innovation and Science in Australia., "National Measurement Act 1960", (2015)
  9. Department of Industry, Innovation and Science in Australia., Innovation and Science in Australia, "National Trade Measurement Regulation 2009", (2015)
  10. Ministry of Science, Industry and Technology in Turkey., "Preparation and Implementation of the Technical Legislation Regarding Products", Law No. 4703, (2001)
  11. Ministry of Science, Industry and Technology in Turkey., "Measurements and Calibration", Law No. 3516, (2008)
  12. The european parliament and the council of the european union., "Measuring instruments Directive",(2014)
  13. Department of Commerce, National Institute of standards and Technology in U.S., "Specification, Tolerances, and Other Technical Requirements for Weighing and Measuring Devices", NIST Handbook 44, (2018)
  14. Government of Canada, "Weights and Measures Act", R.S.C., 1985, c. W-6, (2018)
  15. Government of Canada, "Weights and Measures Regulations", C.R.C., c. 1605, (2018)
  16. Paik, J. S., Lim, K. W., Yoon. B. R., "Development of Advanced Scientific Instruments; A Study on Coriolis Mass Flowmeter(II)", KRISS, (1990)
  17. Korean Standard, "Measurement of fluid flow in closed conduits - Guidance to the selection, installation and use of Coriolis meters(mass flow, density and volume flow measurements)", KS B ISO 10790, (2003)
  18. Kim, I. T., Cho, D. K., Jeong, M. J., Lee, J. W., Seo H., Yu, M. J., "A Study of the Precise Flow Measur-ement using Coriolis flowmeter", KSPE, 61-44, (2008)
  19. Korean Standard, "Liquified petroleum gas (LPG)", KS M 2150, (2007)
  20. American Society for Testing and Materials, "Petroleum measurement table", ASTM D1250-80, (2008)